Green Nanoparticles Synthesis using Urginea Maritima Bulb Extract

Urginea Maritima Bulb Extract Mediated Green Synthesis Nanoparticles and their in vitro and in vivo Oxidant/Antioxidant Status

Impact on Health and Environment

By

Neewar Ahmed Yaseen

B.Sc. Chemistry, 2007, M.Sc. Biochemistry, 2012

Supervisor

Prof. Dr. Najlaa K. Issa Asst. Prof. Dr. Azzam A. Mousa

Understanding the impact of nanoparticles on human health and the environment is essential for responsible and sustainable utilization of these advanced materials.

Hypothesis

Research Questions

Formulating educated predictions based on the study's background and expected outcomes, serving as a foundation for experimentation.

Crafting critical inquiries that aim to address specific aspects of the study, guiding the investigation towards meaningful conclusions.

Application Versatility

Future Perspectives

The versatile nature of nanoparticles allows for diverse applications in drug delivery, imaging, sensing, and environmental remediation, showcasing their potential in addressing various challenges.

Exploring the potential advancements and challenges in nanoparticle research, envisioning future breakthroughs and applications in various fields of science and technology.

Combined Image Search Query

Research Objectives

focused research laboratory scientific hypothesis inquisitive

Detailing the specific aims and goals of the study, guiding the research process towards a clear direction.

Collaborative Research Opportunities

Regulatory and Ethical Considerations

Physical and Chemical Attributes

Surface Modification Effects

Promoting interdisciplinary collaboration and partnership opportunities for advancing nanoparticle research, fostering knowledge exchange and synergies across scientific disciplines.

Addressing the regulatory frameworks and ethical implications surrounding the use of nanoparticles, highlighting the importance of responsible innovation and risk management strategies.

The nanoparticles exhibit specific physical and chemical characteristics, such as size, shape, and composition, influencing their behavior and applications in various fields.

Surface modifications of nanoparticles can alter their physical, chemical, and biological properties, impacting their stability, reactivity, and target specificity in various applications.

Aim of Study

Technological Innovations and Industry Adoption

Biological Interactions

Exploring the integration of nanoparticle technologies into various industries, showcasing the potential for innovation, efficiency, and sustainability in product development and manufacturing processes.

The interaction of nanoparticles with biological systems, including cells and tissues, is crucial for understanding their biomedical applications and potential impacts on living organisms.

Nanoparticles Characteristics

Unveiling the Research Objectives, Hypothesis, and Key Questions

Global Implications of Nanoparticle Research

Exploring the unique features and properties of nanoparticles synthesized using Urginea Maritima bulb extract.

Considering the global impact of nanoparticle research on healthcare, environment, economy, and society, emphasizing the need for international cooperation and responsible advancement of nanotechnology.

Role of Nanoparticles in Oxidant/Antioxidant Status

Nanoparticles have the potential to influence oxidant/antioxidant balance, leading to diverse biological implications in various systems.

Background on Urginea Maritima Bulb Extract

The extract of Urginea Maritima bulbs has been identified as a significant agent in green synthesis nanoparticles.

Benefits of Green Synthesis Nanoparticles

Utilizing green synthesis techniques offers a sustainable approach to producing nanoparticles with reduced environmental impact.

Properties of Urginea Maritima Bulb Extract

Nanoparticles Synthesis Method

The extract contains bioactive compounds that play a crucial role in synthesizing nanoparticles with eco-friendly methods.

The synthesis method includes...

Extraction Process of Urginea Maritima Bulb

The extraction process involves...

In vivo Testing Procedures

In vitro Testing Procedures

Experimental Methods: Extracting and Synthesizing

Testing within living organisms...

Testing in controlled laboratory conditions...

Details of the extraction process of Urginea Maritima bulb and the method used for nanoparticles synthesis.